Ship&#39;s signaling or broadcasting device



June l2, 1928. 1,673,369 5 c. B. MILLS smPs SIGNALING 0R BROADCASTING DEVICE Original Filed Novv. 14, 1923 3 Sheets-Sheet, l

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June 12,1928. 1,673,369

C. B. MILLS SHIPS SIGNALING OR BROADCASTING DEVICE original Fijled Nov.14, 1923 s sheets-sheet 2 :Ill

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C. B. MILLS SHIPS SIGNALING OR BROADCASTING DEVICE Original Filed Nov. 14. 1925 3 Sheets-Sheet 3 i Patented June 12` 1928,-,` I, i -i y on'EsrER 13.MInLs, OFBRQOKLYN, NEW YORK,- fissiGNoR To *ri-1E SPERRY eYiiosoolE i coiviifANir;` OF'BRQQKLYN, NEW Yonai, A CORPORATION or NEW YORK.

f `sinrvs:siGNA'LINa on 1snoei]ciis'riive. DEVICE.-

Application aieeNpvemtr i4, A219213," seriaiNofevfigeo.,nenewegdiuiy 1619272 This inventionrolatesto ships signaling Fig. 2 is a plan view, "withpai-ts broken or broadcastingdevices and is designed paraway, of the Fig. l'device. ,Y y

ticularly for use,in.bioadeasting the ships 3 is a-,front elevation, partly ysec-` y course, although thev invention isl4 equally tioned vertically, of a `circuitclosing 'device acapable of' `use infbroadcasting `the ships and a'select'or mechanism therefor.: o l, speedforany other lvariable factor', depend-- Fig. 4L is an end view ofthe device shown Vent uponfthe ships movements. In addition, ,11i `Fig. '3 and illustrating thefselectorr for `60` K, otli'eiisuitableinformationoli` a fixed `oi`-vari controlling the circuit closer oFig.V y able character Amay `be transmitted. i p f ",Fig. 5 is an end view, partlysectioiied and 4"The ,n'pvntiop .has fork one ofitsphjects witlipartsbroken away, of thefFigfS V.dethe `provision 'of means for periodically vice' showing the driving 'mechanism forthe transmitting a signal or signals as r'described circuit closing device.,I f `labove,preierably by wireless means.` ,lihil'el F-ig. 6 is an enlarged "front, view,- partlv ships.y have heretofore transmitted wireless sectioned'and with parts broken away, shovii- 15. :Signals -so 1 that other-ships may ascertain ingthe gearing connectionbetween the selectheir positionl by means `oit radiodirection tor mechanism and the circuit closing devicev '.iinders, they didnotgtraiisniit their course', `of igs and v4l. n o n 1 70 "norwere*meansprovided yfor;transmitting ig. 7 is a 'view of the contact carrying 7 such signals automatically, and periodically Cylinder of the circuit closing device un'- Vto keep neighbouringvessels apprised @fits rolled or developed. 'f .7

` heading. v This invention is therefore es# l' Figt 8 is'a vertical `sectionthrough a porpeciallyfdesirable for use inffoggy'weather. tion of a repeater ,compassy showing means 75 .y It is a furtherfobjegt of `my.im;@neig/)11-t0 applied thereto for preventing'interruption provide ymeans for transmittingasignaler of al signal transmission.- `signals as abovedescribed, said transmission Fig. 9 is a wiring diagram.l o p I y being operated from` a course `.indicator n hereinbefore stated, the,v particular n :whichmay be av repeater compass controlled variable factor which itis desired to broad- 80 by a masterqg'yro compass, or maybe set caste-in7 the presentcase -isthev ships course. y by. hand. l M A .f f o It 1S `therefore necessaryfto. provide in'th@ 3o .i It is a `further objectof thisinvention to `rst place a course indicating"mechanism .transmit clear `distinctA `signals, of .thetype For `this purpose lthere is employed a lre` f described without break or interruptionI even peater compass shownl in Figsfl and 2 and' 535 `when/che shipis changing its course. For* adapted tobeoperatedhfroni Aa transmitter this purpose Ifprovide means `for preventing on master compass, preferably a gym- 35 response of the signal-controlling means to seopicl ,compass of the Sperry type., .The

Vehangesin course while av signaly is being repeater compass is an `automatic coursetransmitted, but Lpermitting saidcontrolling responsiveY device,y but my invention ris appli- 9o means to be operated into synchronism with Cable also to` ak liand-setcourse indicator. y the master `coriipass as soon' as the trans- Said repeater compass con'iprises a casing 10 40 mission ofthe signal has been completedl .wi'thin 'which is fixedly mounted aV repeater Itis la iurther objet-tot' my inventionoto niotoiyll adapted to be driven from ythe `provide a small, con'ipa-ct and' Ivery simple `transmitter of the master compass, usually Q5 signal "transmissiondevice y :tori accomplishl.at a much higher speed. `The rotation of the ing.theabove'mentionedbjeetg,... repeater motor is. stepped downthrough Other objects and advantagesoit this `ingearing 12, 13, 14, 1,5sothat al compass card vention will become apparent from thede- 16 mounted tomove integrally v vitligeai1 5A tailed specification, taken in connectionwitli rotates in` synchronisin with the' compass loo the accompanying drawings. f card of the master compass, that is in` a v Q Inthe drawings, i Y l ratio ofone'toone. Said card lmaybe of Fig. 1H is avert-ical section through are# `a V,translucent materialV and: a source of ili peater compass'employedincoiinection'with lumination 17 may beprovided 'within the of'my inventionapplied thereto. l y to illuminate thenumeralsluponsaidcard.

`Sperry gyio-co1npass, and having'` a; part repeater compass casing beneath the card 105 eli) `which, when pressed inwardly, causes crown gear 21 to engage a gear 22 movable integrally with gear 13 to permit setting of the repeater compass in synchronism with the master compass.

The present invention contemplates the use ot wireless signals and for this purpose there is shownin Fig. 9, one suitable torni ot regenerative oscillatory transmitting circuit, although it will be understood that many other vtorms can be employed. The transmitting' system shown comprises an antenna 25, the antenna circuit including a coil 2li, a buzzer 27, a source of currentI 28, and a switch 29, and a three electrode bulb 3() having a plate 'circuit 31, a lilament circuit and a grid circuit 33. Depending upon the length ot time that the antenna circuit is energized, there will be transmitted a long or short signal corresponding to vthe dots and dashes ot the 'telegraphic code. For controlling the sending ot signals through the circuit hereinbet'ore described, there is provided the following mechanism in the antenna circuit:

A shalt movable integrally with the repeater card has connected thereto a metallic plate L11 on which is mounted a plurality ot' spring pressed brushes 112, ab adapted to engage commutators 44, 4.5, as the card rotutes. lFrom gear 13 there is adapted to be rotated by means oli' gear 16 a conunutator el? with Which cooperates a brush a8, the gearing being such that commutator 11T is rotated 36 times for each complete revolution ol" the repeater card. It will be observed that thc commutators 44 and Ll5 are fixed, while commutator 47 is movable, but that brushes i-2 and eli-3 are rotatable relative to their respective commutators, while the brush 4S is fixed. The comn'mtator let suitalily subdivided so that each subdivision corresponds to a hundred degrees. Commutator 15 is suitably subdivided so that each subdivision corresponds to ten degrees, While commutator Ll-T is subdivided into tivo five degree divisions. fon'imutator ist is theretore divided into tour portions, the first liieing a silent portion and correspoiidingto the transmission ot signals ot less than 10() degrees. Ihe second portion is adapted to transmit a signal corresponding to 100 degrees. the third portion to 200 degrees and the fourth portion to 300 degrees. Commutator is subdivided into 36 portions in three groups ranging trom zero degrees to 90 deg ees and a fourth group trom zero degrees to 5f) degrees. each portion correspending` to 1() degrees. Like contacts in each of the aforesaid groups are connected in parallel so that the same contact ot each group Will send out the same signal, that is to say 2O degrees in one group will actuate the same signal as 20 degrees in any oil the other groups. Commutator el? is divided into two parts, the lirst corresponding to zero degrees and the second to 5 degrees, this being the desired limit of accuracy of the transmitted course.

Referring to Fig. 9 it vwill be observed that the silent portion ct the commutator ist corresponds to portions from zero through 9() ot' the commutator 45. This port-ion 5i) it will be observed is therefore not connected to the Wireless transmitting circuit. so that in this portion ot the azimuth scale, brush 42 is ineffective. Beyond the first hundred degrees ot the azimuth scale however', both .brushes 42 and 113 are e'll'ective to transmit both hundreds and tens. The brush 48 is always e'f'lective, since this is the units scale. lt Will be observed 'l'urther, that the first contact 5l off the commutatm: et?) is also silent sincel within the first ten degrees ot the azimuth scale there is no necessity to transw mit a tens designation and hence only brush 48 is effective to transmit zero or 5 degrees as the case may be. Further While brush i3 is on the first halt oit each tens contact brush 4S is on the zero units contact, and while brush 4.3 is on the east half ot' each tens contact brush 48 is on the 5 contact.

To enable the brushes 12, 43 and Li8 in contact With their commutators 41st., a5 and 47 respectively, to transmit suitable signals through the Wireless sending instrument, there is provided a circuit closer in the 'form of a roller or cylinder (i0 having a pluralityv of parallel, peripheral projecting rims (il, on the sui-tace ot which is .formed long and short projections 63 as the case may be. corresponding to the dashes and dots o't` the telegraphic code, which as the roller or cylinder 6() rotates are adapted to engage spring contacts 641 (see Fig. 5i, one ot which is provided to cooperate with each rim o1.` lVhe/n a projection G3 engages a contact (tl` the latter engages a contact (35 to close the. circuit through the transmission system to send a long or short signal as the case may be. The entire course is adapted to be trans mitlcd `in one revolution oi" the contact carlying cyliiuler. so that it is necessari' lo position the signals corresi'ionding to hundreds in advance of the signals corresponding' to tens which are in turn positioned in advance oi'l the signals corresponding to units Within a single circum'lerence (see Fig. 7). Since only one ot the hundreds, one otl the tens and one ot the unit commutator segments can be in engagement With their respective brushes at any one time, onlv one ol: the hundreds designations, one of the tens designations and one ot the units lil) llt;

lili

i v 1,673,369 n designations caribe .transmitted in succession `1n yany single rotati'onofvthe contact carrying `cyl1nder`60; It will be understood of` course Athat yifthecourselin azimuthiis less than 41.00 `degrees `brush 42 is ineffective, none of `the hundredsdesignations Willbe j transmitted and the'signal transmitted ,will

beonlyp. tens :and units.: Similarly lif/'the course in azimuth is lessV than ten degrees, "10- bothbrushes @and 4'32Will be `on the respective'dead portionsO and 5l, and hence only i units designations-Will Abe transmitted.'

of the ship, `orof a fixed character, suchl as the shipsvcall; In the present case Icontemplate sending outy the ships call mapprise other `vessels of the ships name, the wordgyro to indica-te the Atype ofnavigating instrument employed, as `Well as. the

tions inV Fig. 7, I providea second rim 71 course oftheve-ssel.` In orderto' send the ships cialljI provide on `the Contact carry! ing cylinder 6() anadditional rim 70 havingsuitable` 'long andfjshort4 projections thereon asshown in thefirst line of projechaving. suitable rprojections shown in'` the second line from tlie left of Fig 7 to vtransmit the word gyro to; indfiatethel type of sending instrument. l It" is apparent Athat upon cach rotation of the Contact carrying `cylinder 60,` there would ordinarily b e transmitted at substantially the same time the i ships call; the Word igyro, and the course,

i (it) carrying cylinder.

`which j "would undesirable. 4I therefore `providemeans `whereby these signals'may be transmitted successively. This f could of ycourse bejdone by.. providing La cylinder large enough so that -the contacts corresponding Ito the various` signals could be 'positioned successively around the cylinder, `so that the signals -`would be transmitted successively in one revolution. of thefcylinder 60. VThis however would necessitate a cylinder of anevceptionally large diameter. fTo.

permit `a` smalldiameter lcylinder to `beyemployerh `I provide means] whereby one of said signals is transmitted for each complete rotationofthev Contact carrying cylinder, suit# able selector mechanism being interposed to render `said sign alcarrying'rims successively effective on' successive'rotations of said cylinf der. i For vthis purpose the contact cylinder '(50 is gearedthrough vreduction gearing 8l,

SQ to abrush 83 `in engagement with a conilmutator 84.Y `so that (the brush' 83rotates once for every, four revolutions of the` contactA Brush 83 and' selector lrotated j continuously g by means such as a 84 are interposedin the line bet-.Ween the circuit closingdevice and the Wireless transmittingapparatusf The .selector 84 is y'dividedin this case into four sections 85, 86, 87 and 88.

Referring now to lFig. 9, it'willbe observed that When brush '83"-is in engagement i With'se'gment 85, the first signal 1s eiiective,

that is, .the circuit to thevvireless transmit ting apparatus lies from 'the' first rim 70 of i the Contact carrying cylinder through segted.' As the cylinderbegins its second rotation; brushy 83 moves into engagement With vsegment SGof the selector to render the vcontacts 64, 65 .actuated bythe projections on the second rim 7l ofthe cylinder eective,

till

so that during the nextrevolution ofk the cylinder GO only the Word gyro is trans- "mitted Similarly iny the next revolution,

brush '83 isin engagement Withseginent 87 to energize the circuitthrough the 'contacts 64, actuated by the projectionsl on the remainingrims Way `of brushes 42, 43and 4S and their cooperating contacts so`thatin "thencxt revolution of cylinder 60, the course .Will be transmitted in hundreds, tens and units,` successively in one revolution of'cyl# finder` 60. *During the neXt. revolution of the cylinderfGO brushv 83 is in engagement with a' dead segment- 88 so that there Will be a period of silence throughout one revolution of the cyli nderl before the series of signals 1s again transmitted v While three signals have been included in the set as described above'jthat is, the ships call,`the Word gyro and theu course, it Will be' understood that any other information of a fixed or variable charactermavbe substituted forv these signals or transmitted in ad* dition thereto, in the latter 4case eXtra rims j With suitable projections being'nrovided and the commutato'rr 84 ofthe selector mechanism being subdivided into @a suitable number of parts. The reduction geari'n'Sl,4 82 would [be suitably proportioned so that one revolution of the cylinder corresponded to the engagemlent'r of brush 83 With'one 'segment of the commutator. j L f vIt will be apparent "that my invention vcan `d icator that. does not automaticallv respond to changes in course but Vis settable by hand. Thus, the'course could be set by operating 48 would be actuated as before.l

Itl will be understood that cylinder `60 is knob "2th in which case brushes 42, 43 andiy ies' motor 90 connected by gearing 91, 921:0 said l? the plate Lill may be provided-on its periphery with pointed projections 93 placed every to form grooves 94 with which cooperates a spring pressed detent 95. Said plate l1:1 is driven from gear 14; which is in turn driven from gear 13 through a yielding resilient connection.

Such connection may comprise a hair-pin spring 98 fixed to a plate 99 carried by the .shaft 105 to which is tixedthe gear 14. Said sha-ft 105extcnds freely through a cylindrical hub 106 which carries gears -13 and 22, said hub being journaled in fixed bearing 107. Upward movement of shaft 105 through the'gearsand said hub may be prevented in any suitable manner as bv providing a iiange 115 on the lower end of said shaft, said flange having frictionless engagement with the under surface of gear by .means of ball-bearings. Said hubY carries at its upper end a'plate 108 to which is fixed a pin 109 positioned between and engaged by the ends of the hair-pin spring 98. A pin 110 fixed to the plate 99 is also positioned between and engaged bythe ends of the hair-pin spring. The drive from the repeater motor is therefore through pin .109 engaging one arm or the other of the spring, to rcause said spring `to engage pin 110 to drive plate `41. lVhen, however, the plate 41 is heldby'the engagement of detent 95 with projections 93, the respective arm of spring .98 under tension will yield, thus permitting gear 13 (driven by the repeater motor) and the lag of plate 41. This stored energy in spring 98 willafter ashort time be sufficient to snap the respective projection 93 past de- `tent 95 and so carry the brush or brushes.

as the case may be, rapidly over the dead space between adjacent contacts into engagement with the next contact.

It apparent that the transmission of a set of signals vill require a given tinie and `it is possible that during this time the ship y may change its course, if course is the variable factor which is being transmitted, as in this case, in which case the signal -will become confused, since different designations `will be rendered live inthe midst of a transmission. To prevent interruption of `the transmission of ay signal until said signal is completed, even though the ship changes its course in the meantime, there may be provided a reta-rding means in the form of a solenoid 100 supported from the casing by a spider 101 adapted to engage a metallic plate 102, movable integrally with plate 41, whenever the course sending mechanism becomes operative. In the present case this would take place when brush 8? engages segment 8T, in which case, the circuit through electroniagnct 100 would be closed to cause said magnet to attract plate 102 and thus prevent movement ofi plate -Llt so that movement of the brushes relative to their contacts would be impossil'ile as long as said electroiiiagnet was energized. If the course is changed while said electromagnet is energized, the plate 11 and the brushes would be held iixed until the signal was completed, whereupon the magnet 100 would be deenergized and the energy stored in spring 98 due to the re1- ative movement of gear 13 to gear 14 would cause the plate 411 and the brushes carried thereby to swing rapidly into synchronisin with the master compass. There is no need to vrender the electromagnet 100 eective while .the ships call or the word gyro7 or any other fixed information is being transmitted. since said .signals are not dependent upon change in course.

'In accordance with the provisionsot thc patent statutes, .I have herein described the principle of operation of my invention, together with the apparatus, `which I now consider to represent the best embodiment thereof, but I desire to have it understood that the apparatus shownis only illustrative and that the invention can be carried out by other means. Also, while it is designed to use the various features and elements in the combination and relations described, some of these may be altered and others omitted without interfering with the more general results outlined, and. the invention extends to such use.

Having herein described my invention what I claim and desire to secure by Letters Patent is,

1. Ina signaling apparatus, a wireless transmitting circuit, af member having a plurality of means adapted to energize said circuit substantially simultaneously, an indicating device, and means whereby said indicating device selectively reiulers said means eiiective.

2. In a signaling apparatus. a wireless transmitting circuit. a rotary member having a plurality of means adapted to energize said circuit substantially simultaneously, an indicating device, and means whereby said indicating device selectively renders said means effective.

3. In combination with a dirigible craft, a signaling apparatus including a wireless transmitting circuit, a member having a plurality of means adapted to energize said circuit substantially simultaneously, `course responsive' means,-and means [whereby said course responsive means selectively renders` 4.1 In combination with'a 'dirigible craft, a signaling apparatus'inelnding a wireless transmitting circuit, a f rotaryy member hav-y renderssaid iirstfmeans effective.

ing a plurality of meansfadapt'ed to energize said circuit substantially simultaneously, course responsive means, l and 'means whereby said course responsive" means selectively s. in icombiniaon with a; dirigibiefcraa,

asignaling apparatus includinga `wireless transmitting circuit, a' circuit closing device liavinga plurality ofV means, for energizing said transmitting circuitsubstantially simultaneously, an indicatingdevice, andmeans whereby said indicating device yselectively renders said means effective.l` Y 6. In combinationV with a dirigible craft,k aV

signaling apparatus including lawireless transmitting" circuit, a circuit closing device having a plurality of"means for energizing-Y said transmitting circuit substantially simul-` taneously, a course responsive device,` and means whereby said course responsive device selectively ienders said means lelfectiveto signal corresponding to the course. 5'1" "1 '7; In combination" with a dirigiblecraft, a

transmit c a signaling apparatus'v including a wireless transmitting circuit, `afrotary circuit closing device having "a plurality of means' for ener- `gizing said transmitting circuit'substantially v simultaneously, an indicating device, and

means wherebyV saidfindicatingdevice selectively renders saidmeans'effective` Ingcombinationwith a dirigiblelcrafua `signaling 1apparatus "including -an wireless* .transmitting circuit, a rotary circuit closing` 'devi'cenhavi'ng aA pluralityof means ,for "eii- Aeigiz'in'g isaid transmitting circuit substan tially simultaneeusly,an indicating device,

transmitting circuit, a circuit closing device `liavingpa` plurality of setsof means adapted to'eneifgizelsaid transmitting circuit substantiallyf "simultaneously, course responsive .meaiis, and means whereby said course" revg sponsive means selectively renders the means inl each set effective.l

'10. 'Iii comb'ynatioii with adirigible craft,

a signaling apparatusincluding a 'wireless transmitting circuit,;`a circuit closing "device .liaving'a plurality of .setsjof means adapted to` yenert'gize saidV transmitting `circuit substan!f tially simultaneouslythe means in oneset being adapted to transmit hundreds sig-f' l inals, ,theLni-eans in the second set tensf 'gigi ytive correspondi'iig'to the course of the craft nals, and the means in the third set units i signals, course responsive means, and means whereby said ycourse responsive means selectively renders the means in each set effec"- `l1. In combination with a dirigible craft, a signaling apparatus'including a wireless transmitting circuit, a rotary circuit closing device'jhaving a'; plurality of .sets of means tive `corresponding to the course of the craft Y adap'tecljto energize said transmitting circuit :substantially simultaneously, the means iny fone set being adapted to transmit hundreds signals, the' means inthe second set tens signals 'and thel means in the third set units signals', said sets being successively positioned within one circumference of said 'device, course responsive means and means whereby ysaid course responsivemeans selectively; renders the Vmeans in eachset leffecin azimuth. i

i In combination with dii'igible craft, a signaling apparatusy including a wireless ,transmitting circuit, a rotary circuit closing device having a plurality of setsof means adapted to energize said transmitting cir?" cuit Isubstantially simultaneously, the ymeans in one set being adapted to transmit hundreds signals, the means in the second set tens signals and the means in `the third set units signals, ysaid sets being successively `positioned `within one circumference 'i of said. device, course responsive means,

means whereby said course responsive means selectively renders the means ineach set* eifective corresponding. tothe course of Said device continuously4 'to transmit the course"periodically.v

' the craft inlazimuth, and means'for' rotating f `13. In' combinationwitli adirigible craft, f

a signaling apparatus including va wireless; ltransmitting circuit, a i'otarycircuit closing device having a pluralityfot sets'of circuitv closingV means, eachvset being adaptedv to transmita signal once in 'each"revolutionof saiddevice, and means for selectively rendering oiie set effectively in each revolution of said device.

14:. In combination with a dii'igible craft,

a signaling apparatus including a wireless transmitting circuit, ya rotary circuit closing device having a` pluralityofsets of circuit 'closing vmeans, each .set being adapted to tra'nsmit a signal once in each' revolution of said device, and means for selectively rendering said -sets effective successively, one set in each revolution of said device. Y Y

15. In combination with a dirigible craft,

a signaling apparatus including a wireless transmitting circuit, a rotary Vcircuit closing device havingfa plui'ality'of sets of circuitclosiiig means, eachset being adapted to transmit iasignal oneeineach revolution of saidf device, vand meansy for selectively rendering said sets effective successfully, one or more of said sets in each revolution of said device.

16. In combination with a dirigible craft, a signaling apparatus including a Wireless transmitting circuit, a rotary circuit closing device having a plurality of sets of circuitl closing means, eacli set being adapted to transmit a signal once in each revolution of said device, and means for selectively rendering one or more sets effective in each revolution of said` device.

17. In con'ibination with a dirigible craft, a. signaling apparatus including a Wireless transmitting circuit, a rotary circuit closing device having a `plurality of sets of circuit closing means, cach set being adapted to transmit a signal once in each revolution of said device, a selector for selectively. rendering one set effective in cach revolution of said device, said selector comprising a fixed member and a relatively movable member, said fixed member comprising a plurality of parts, each of said sets being connected to onev of said parts and means whereby said movable member is in engagement with each part throughout one revolution of said device.

1S. In combination with a dirigible craft, a signaling apparatus including a wireless transmitting ciicuit, a rotary circuit closing device having a plurality of sets of circuit closing means, each set being adapted to Atransmit, a signal once in each revolution of said device, a selector for selectively rendering one set effective in each revolution of said device, said selector comprising a fixed member and a relatively movable member, said fixed member comprising a plurality of parts, each ofl saidsets being connected to one of said parts and means whereby said movable member is in engagement with each part throughout one revolution of said device, and means for rotating said device continuously lo transmit said set of-signals periodically.

19. In a. signaling apparatus, means for transmitting a signal, means responsive to a variable factor controlling said first means, and means for preventing response of said second means to variations in said factor until the transmission of the signal has been completed.

20. In combination with a. dirigible craft, a signa-ling apparatus comprising means for transmitting a signal, means responsive to changes in the course of the craft for controllingsaidgfirst means and means for preventing response of said second means to changes in course of the craft until the transmission of the signal has been completed,

Q1. In combination with a dirigible craft, a signaling apparatus comprising means for transmitting a signal, means responsive to Let/snee changes in course of the craft, and means rendered effective when said'first means is operating for preventing response of said second means to changes in course ofthe craft.

22. In combination Witha dirigible craft, a signal apparatus comprising means for transmitting asignal, means responsive to changes in tlie course ofthe craft for controlling said first mcans, means yieldably connected to said second means and movable there-With.' for controlling said first means. and means for preventing said last named means from moving together with said second means until the transmission of the signal has been completed.

23. In combination with a dirigible craft, a signaling apparatus comprising means for transmitting a signal, means responsive to changes in the course of the craft, means yieldably and resiliently connected to` said second' means and movable therewith for` controlling said first means and means for preventing said last named means from moving together with said second means until the transmission of the signal has been completed, the resilient connection between said second and third .means serving to restore said third means to its initial position relative to said second means when the transmission of the signal has been completed.

24. In combination with a dirigible craft, a signaling apparatus comprising means for transmitting a signal, means responsive to changes in the course of the craft, means yieldably and resil-iently connected to said second means and movable therewith for controlling said first means and means including an electro-magnet rendered effective When said first means is operating for preventing said last named means from moving together with said second means, the resilii ce ent connection between said second and third meaiisserving to restore said 'third means to its initial position relative to said second means when said electrosmagnet is deenergized.

25. In a control system, an electric circuit, means for controlling said circuit, including a plurality of spaced contacts, a brush, means for moving said brush over said contacts, and means for preventing stoppage of said brush in the spaces between adjacent contacts.

2G. In a control system, an electric circuit, means for controlling said circuit, including a plurality of spaced contacts, a brush, means for moving said brush over said contacts, means for preventing stoppage of said brush in the spaces between adjacent contacts, said last named means inf cluding means for retarding movement of said brush to a predetermined extent when near the end of a contact, means whereby said retardation stores energy in said brushmoving means tok overcome saidjietarding means andimove said brush into engage- -.a brush connected to 'said first means yand i a signaling;` systern-.including` a wireless cir-4 `named means including a yieldable and re'- movable oversaid` contacts, and means for "preventing stoppage of said brush in the spaces between adjacentl contacts.

28. In combination with a dirigible craft,

cuit, means responsive to Changes; in course of the ci'aft,-1`iieans for controllingisaid` cirf` cuit includinga yplu ality of spaced con` taots,'aA brush connected to said firsty means` andinovable over'said contacts, means for preventing vstoppage of said brush inthe spaces between adjacent contacts, said last silient connection` between saidA first and second means, means for retarding the'movement of .said brush'to a predetermined degree 'at the end of the Contact, said retardationserving` to store energyin said resilient; Connection to overcome said retarding means and movesaid. brusli into engagementwith the next adjacent Contact.

'l 29. In combination with a dirigible craft,

a signalingrsystem including a wireless circuit, means responsive to changes in course` ofthe craft and movable to a plurality of positions, means -whereby said nist means Veneigizes said circuit in each ofsaid posin' tio s to transmit a signal, and means for preventing` stoppage of vsaid course responsive means between signal. actuatingp0sitions. i f s v In testimony whereof I have aiixed my signature.

lCHESTER B. MiLLs. 

